CN206015113U - Electrolysis nanoparticle water generating device - Google Patents
Electrolysis nanoparticle water generating device Download PDFInfo
- Publication number
- CN206015113U CN206015113U CN201621018391.0U CN201621018391U CN206015113U CN 206015113 U CN206015113 U CN 206015113U CN 201621018391 U CN201621018391 U CN 201621018391U CN 206015113 U CN206015113 U CN 206015113U
- Authority
- CN
- China
- Prior art keywords
- electrolysis
- anode
- plate
- electrolytic cell
- generating device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
Abstract
This utility model discloses a kind of electrolysis nanoparticle water generating device, and which includes:Cathode electrolytic cell, houses generation water to be electrolysed, and there is catholyte plate;Anode electrolytic tank, houses electrolyte aqueous solution, and there is anode electrolysis plate;Ion exchange membrane, between cathode electrolytic cell and anode electrolytic tank;DC power supply between catholyte plate and anode electrolysis plate provides DC source and is electrolysed generation water to be electrolysed and electrolyte aqueous solution;Adjusting means, comprising two slide rails, which sets up the two ends of electrolysis nanoparticle water generating device separately, and each slide rail has another holder of one end of the holder of one end of clamping catholyte plate and clamping anode electrolysis plate, and each holder is optionally along corresponding slide rail displacement.Device of the present utility model is by regulation the distance between catholyte plate and anode electrolysis plate, and prevents gas from stopping between catholyte plate and anode electrolysis plate.
Description
Technical field
This utility model with regard to a kind of generating means, particularly, with regard to one kind by electrolysis generating electrolysis nanoparticle
The electrolysis nanoparticle water generating device of water.
Background technology
Known electrolytic ionic water has good cleaning performance, can act also as drinking water, and for ring after which is discharged
Border can't produce pollution.
And electrolytic ionic water, during generation, anode-side will produce oxygen, and oxygen will be dissolved in electrolysis with bubble
In matter aqueous solution, the bubble would interfere with electrolysis so that electrolytic efficiency reduces;On the other hand, cathode side will produce hydrogen, and which is same
Sample can hinder electrolysis and electrolytic efficiency is reduced.
In sum, it is known that electrolytic ion water generating device still have improve space, be badly in need of related industry together visit
Beg for improvement.
Utility model content
In view of above-mentioned known problem, the purpose of this utility model is to provide a kind of electrolysis nanoparticle water generating dress
Put, in order to solve problem encountered in known technology.
Above-mentioned purpose is based on, this utility model provides a kind of electrolysis nanoparticle water generating device, and which includes catholyte
Groove, anode electrolytic tank, ion exchange membrane, DC power supply and adjusting means.Cathode electrolytic cell houses generation to be electrolysed
Water, cathode electrolytic cell have catholyte plate, and catholyte plate is neighboringly located at the inner side of cathode electrolytic cell.Anode electrolytic tank holds
Electrolyte aqueous solution is put, anode electrolytic tank has anode electrolysis plate, and anode electrolysis plate is neighboringly located at the inner side of anode electrolytic tank.
Ion exchange membrane is located between cathode electrolytic cell and anode electrolytic tank.DC power supply connects catholyte with negative pole
Groove, and with positive pole jointed anode electrolysis bath, DC power supply provides direct current between catholyte plate and anode electrolysis plate
Power supply and be electrolysed generation water and electrolyte aqueous solution to be electrolysed, the cation after being electrolysed in anode electrolytic tank passes through ion exchange membrane
Nanoparticle water is electrolysed to generate into cathode electrolytic cell.Adjusting means includes two slide rails, and two slide rails set up electrolysis nanoparticle separately
The two ends of water generating device, each slide rail have one end of the holder of one end of clamping catholyte plate and clamping anode electrolysis plate
Another holder, each holder is optionally along corresponding slide rail displacement.
It is preferred that electrolysis nanoparticle water generating device can also include volume control device, which links cathode electrolytic cell one
The cathode electrolytic cell entrance of side and the anode electrolytic tank entrance and sun of cathode electrolytic cell outlet and link anode electrolytic tank side
Pole electrolyzer outlet.
It is preferred that cathode electrolytic cell can include soda acid detector unit, side wall of the soda acid detector unit located at cathode electrolytic cell
On, and one end of soda acid detector unit is located at the acid-base value for detecting the electrolysis nanoparticle water for generating in cathode electrolytic cell.
It is preferred that anode electrolytic tank can include concentration detecting unit, side wall of the concentration detecting unit located at anode electrolytic tank
On, and one end of concentration detecting unit is located at the concentration for detecting electrolyte aqueous solution in anode electrolytic tank.
It is preferred that DC power supply can include current detecting unit, one end connection electric current of current detecting unit
The negative pole of power supply device, the other end then connect catholyte plate, detect the magnitude of current of DC source.
In sum, of the present utility model electrolysis nanoparticle water generating device in electrolytic process, catholyte plate and
Different gases can be produced between anode electrolysis plate.By regulation the distance between catholyte plate and anode electrolysis plate, and prevent
Only gas is stopped between catholyte plate and anode electrolysis plate, hinders electrolysis effectiveness;Further, safety exhaust dress can be aided with
Put, reach effective and safety and drain produced harmful and flammable explosive gas in electrolytic process;On the other hand, in catholyte
Volume control device is provided with outside groove and anode electrolytic tank, to control to enter outflow in cathode electrolytic cell and anode electrolytic tank;
So as to coordinating the concentration for adjusting the distance between catholyte plate and anode electrolysis plate and electrolyte aqueous solution, and producing not
Same acid-base value and the electrolysis nanoparticle water of ion concentration.
Description of the drawings
Fig. 1 is the schematic diagram of electrolysis nanoparticle water generating device of the present utility model.
Fig. 2 is the applicating flow chart of electrolysis nanoparticle water generating device of the present utility model.
Symbol description:
100:Electrolysis nanoparticle water generating device
110:Cathode electrolytic cell
111:Catholyte plate
112:Cathode electrolytic cell entrance
113:Cathode electrolytic cell is exported
114:Soda acid detector unit
120:Anode electrolytic tank
121:Anode electrolysis plate
122:Anode electrolytic tank entrance
123:Anode electrolytic tank is exported
124:Concentration detecting unit
130:Ion exchange membrane
140:DC power supply
141:Power detecting unit
151:Slide rail
152:Holder
S201 to S205:Step
Specific embodiment
In order to understand feature of the present utility model, content and advantage and its effect that can reach, by this utility model
Coordinate figure, and as follows with the expression-form detailed description of embodiment, and the figure used in which, its purport is only to illustrate and aid in
Description is used, and may not configure for the actual proportions of this utility model embodiment and precisely, therefore should be with regard to the ratio of appended figure
Example is understood, limits to interest field of this utility model on actual enforcement with configuration relation.
Advantage of the present utility model, feature and the technical method for reaching will be carried out with reference to exemplary embodiment and institute's accompanying drawing
It is more fully described and is easier to understand, and this utility model can be realized in different forms, be only therefore understood not to
It is limited to the embodiment that is stated at this, on the contrary, for skilled artisan, the embodiment for being provided will make this
Disclose more thoroughly with pass on comprehensively and intactly category of the present utility model, and this utility model will only be attached right
Claim is defined.
With reference to Fig. 1, which is the schematic diagram of electrolysis nanoparticle water generating device of the present utility model.As illustrated, this reality
Cathode electrolytic cell 110, anode electrolytic tank 120, ion exchange membrane are contained with new electrolysis nanoparticle water generating device 100
130th, DC power supply 140 and adjusting means.
Continuous speech, in order to house generation water to be electrolysed, generation water to be electrolysed can be pure water, deionization to cathode electrolytic cell 110
Water or nanoparticle water, but not limited to this;Cathode electrolytic cell 110 has catholyte plate 111, and catholyte plate 111 is neighboringly
Located at the inner side of cathode electrolytic cell 110, and neighbouring ion exchange membrane 130.
Then in order to house electrolyte aqueous solution, electrolyte aqueous solution can be wet chemical, carbonic acid to anode electrolytic tank 120
Sodium water solution, but not limited to this;Anode electrolytic tank 120 has anode electrolysis plate 121, and anode electrolysis plate 121 is neighboringly located at sun
The inner side of pole electrolysis bath 120, and neighbouring ion exchange membrane 130.
Ion exchange membrane 130 mentioned above is located between cathode electrolytic cell 110 and anode electrolytic tank 120, in order to separate
Generation water to be electrolysed and electrolyte aqueous solution.
In order to provide DC source, which connects catholyte plate 111 with negative pole to DC power supply 140, and with just
Pole jointed anode electrolytic zinc-coated steel sheet 121, DC power supply 140 is provided between catholyte plate 111 and anode electrolysis plate 121
DC source, and then with the housed generation water to be electrolysed of 111 electrolysis cathode electrolysis bath 110 of catholyte plate, and with anode
The housed electrolyte aqueous solution of 121 electrolytic anode electrolysis bath 120 of electrolytic zinc-coated steel sheet;Then, the sun after being electrolysed in anode electrolytic tank 120
During ion will be through ion exchange membrane 130 to cathode electrolytic cell 110, so as to generating electrolysis nanoparticle water.
And adjusting means includes two slide rails 151, two slide rails 151 set up the two ends of electrolysis nanoparticle water generating device 100 separately,
Further say, one of slide rail 151 is located at the adjacent top end of cathode electrolytic cell 110 and anode electrolytic tank 120, another
Slide rail 151 is then located at the neighbouring bottom end of cathode electrolytic cell 110 and anode electrolytic tank 120;Each slide rail 151 has clamping negative electrode electricity
Another holder 152 of one end of the holder 152 of one end of solution plate 111 and clamping anode electrolysis plate 121, each holder
152 optionally along 151 displacement of corresponding slide rail;In other words, the two ends of catholyte plate 111 are clamped folded by part 152 respectively
Hold, and anode electrolysis plate 121 be as the same, therefore when holder 152 is along 151 displacement of slide rail, can drive catholyte plate 111 or
121 relative ion exchange membrane of anode electrolysis plate, 130 displacement, with adjust between catholyte plate 111 and ion exchange membrane 130 away from
From or adjust the distance between anode electrolysis plate 121 and ion exchange membrane 130.
In more detail, groove 110 is electrolysed by the cathode on the outside of the two of ion exchange membrane 130 and anode electrolytic tank 120 is fixed, cloudy
Negative pole face of the pole electrolysis bath 110 towards ion exchange membrane 130, positive pole-face of the anode electrolysis plate 121 towards ion exchange membrane 130;
When electrolysis is carried out, the generation water to be electrolysed in cathode electrolytic cell 110 and the electrolyte aqueous solution in anode electrolytic tank 120 are in negative electrode
Be electrolysed between electrolysis bath 110 and anode electrolytic tank 120 and produced ion, ion friendship is carried out by ion exchange membrane 130
Change.
And be electrolysed nanoparticle water generating device 100 and can include volume control device (not shown), flow-control is filled
Put the cathode electrolytic cell entrance 112 and cathode electrolytic cell outlet 113 and link anode electrolysis for linking 110 side of cathode electrolytic cell
The anode electrolytic tank entrance 122 of 120 side of groove and anode electrolytic tank outlet 123.Further, by volume control device from the moon
Pole electrolysis bath entrance 112 injects generation water to be electrolysed into cathode electrolytic cell 110 and is taken out by cathode electrolytic cell outlet 113 and generates
Electrolysis nanoparticle water afterwards, and from anode electrolytic tank entrance 122 to anode electrolytic tank 120 in inject electrolyte aqueous solution simultaneously
Cathode electrolytic cell 110 and discharge anode electrolytic tank 120 in are persistently detected.
And cathode electrolytic cell 110 can include soda acid detector unit 114, soda acid detector unit 114 is located at cathode electrolytic cell 110
Side wall on, and one end of soda acid detector unit 114 be located at cathode electrolytic cell 110 in, soda acid detector unit 114 is in generating process
In in order to detecting the acid-base value of the electrolysis nanoparticle water of generation.Anode electrolytic tank 120 can include concentration detecting unit 124, dense
Degree detector unit 124 is on the side wall of anode electrolytic tank 120, and one end of concentration detecting unit 124 is located at anode electrolytic tank
In 120, concentration detecting unit 124 detects the concentration of electrolyte aqueous solution, coordinates volume control device and storage when concentration step-down
The electrolyte aqueous solution container for depositing electrolyte aqueous solution is fed and is adjusted the electrolyte aqueous solution of anode electrolytic tank 120
Concentration, to maintain the stability of electrolyte aqueous solution concentration.Electrolysis nanoparticle water generating device 100 in volume control device and
Concentration detecting unit 124 detect errorless after, DC power supply 140 is supplied to catholyte plate 111 and anode electrolysis plate 121
Answer DC source and detected.
Supplement a bit, DC power supply 140 can include current detecting unit 141, the one of current detecting unit 141
End connects the negative pole of current and power supply feeding mechanism 140, and the other end then connects catholyte plate 111, to detect the electricity of DC source
Flow;In addition, during electrolytically generated, produced gas when can drain electrolysis by safety exhaust unit, and generated
Electrolysis nanoparticle water by the 113 nonmetallic container of injection of cathode electrolytic cell outlet and sealed storage.
It is noted that electrolysis nanoparticle water generating device 100 of the present utility model to can be used for tandem continuously electric
Solution, its can discharge electrolysis nanoparticle water, and the electrolysis nanometer that will be discharged via volume control device from cathode electrolytic cell 110
Ionized water injects another cathode electrolytic cell to carry out second electrolysis and ionizing, however, which is merely illustrative citing, does not limit
In this.
Although aforementioned also explanation simultaneously during electrolysis nanoparticle water generating device of the present utility model is described
The concept of the generation method of electrolysis nanoparticle water generating device of the present utility model, but for clarification, separately paint below
Show that applicating flow chart is described in detail.
With reference to Fig. 2, which is the applicating flow chart of electrolysis nanoparticle water generating device of the present utility model.As illustrated,
The generation method of electrolysis nanoparticle water generating device of the present utility model is comprised the steps of:
In step s 201, generation water to be electrolysed is housed in cathode electrolytic cell, and house electrolysis in anode electrolytic tank
Matter aqueous solution.
In step S202, the contact catholyte plate for generating water to be electrolysed is set in cathode electrolytic cell, and in anode
The anode electrolysis plate of contact electrolyte aqueous solution is set in electrolysis bath.
In step S203, by the distance between adjusting means adjustment catholyte plate and ion exchange membrane and adjustment
The distance between anode electrolysis plate and ion exchange membrane.
In step S204, the negative pole connection catholyte plate and positive pole jointed anode of DC power supply are electrolysed
Plate, to provide DC source between catholyte plate and anode electrolysis plate, water-soluble to be electrolysed generation water to be electrolysed and electrolyte
Liquid.
In step S205, by the cation produced by after electrolyte aqueous solution in anode electrolytic tank through should be from
Proton exchange is electrolysed nanoparticle water to cathode electrolytic cell to generate.
Further, electrolysis nanoparticle water generating device can be linked the moon of cathode electrolytic cell side by volume control device
Pole electrolysis bath entrance and cathode electrolytic cell outlet, the anode electrolytic tank entrance of anode electrolytic tank side and anode electrolytic tank outlet,
And control water, electrolyte aqueous solution and the electrolysis nanoparticle water of generating to be electrolysed and enter outflow.
Additionally, electrolysis nanoparticle water generating device can also include being generated by the soda acid detector unit detection of cathode electrolytic cell
Electrolysis nanoparticle water acid-base value;And the concentration of electrolyte aqueous solution is detected with the concentration detecting unit of anode electrolytic tank;
And the magnitude of current of DC source is detected with the current detecting unit of DC power supply.
In sum, of the present utility model electrolysis nanoparticle water generating device in electrolytic process, catholyte plate and
Different gases can be produced between anode electrolysis plate, by regulation the distance between catholyte plate and anode electrolysis plate, and prevented
Only gas is stopped between catholyte plate and anode electrolysis plate, hinders electrolysis effectiveness;Further, safety exhaust dress can be aided with
Put, reach effective and safety and drain produced harmful and flammable explosive gas in electrolytic process;On the other hand, in catholyte
Volume control device is provided with outside groove and anode electrolytic tank, to control to enter outflow in cathode electrolytic cell and anode electrolytic tank;
So as to coordinating the concentration for adjusting the distance between catholyte plate and anode electrolysis plate and electrolyte aqueous solution, and producing not
Same acid-base value and the electrolysis nanoparticle water of ion concentration.
Embodiment described above is only that technology design of the present utility model and feature are described, its object is to make to be familiar with this
The personnel of technology will appreciate that content of the present utility model and implement according to this, when can not with restriction right of the present utility model
Requirement, i.e., the impartial change that is made according to the spirit disclosed in this utility model generally or modification, should cover in this utility model
Claim in.
Claims (5)
1. one kind is electrolysed nanoparticle water generating device, it is characterised in that the electrolysis nanoparticle water generating device includes:
Cathode electrolytic cell, houses generation water to be electrolysed, and the cathode electrolytic cell has catholyte plate, and the catholyte plate is adjacent
Near-earth is located at the inner side of the cathode electrolytic cell;
Anode electrolytic tank, houses electrolyte aqueous solution, and the anode electrolytic tank has anode electrolysis plate, and the anode electrolysis plate is adjacent
Near-earth is located at the inner side of the anode electrolytic tank;
Ion exchange membrane, between the cathode electrolytic cell and the anode electrolytic tank;
DC power supply, connects the catholyte plate with negative pole, and connects the anode electrolysis plate with positive pole, described
DC power supply between the catholyte plate and the anode electrolysis plate provides DC source and is electrolysed and described treats electricity
Solution generates water and the electrolyte aqueous solution, and the cation after being electrolysed in the anode electrolytic tank passes through the ion exchange membrane extremely
Nanoparticle water is electrolysed to generate in the cathode electrolytic cell;And
Adjusting means, comprising two slide rails, two slide rail sets up the two ends of the electrolysis nanoparticle water generating device separately, each described
Slide rail has another institute of one end of the holder of one end of the clamping catholyte plate and the clamping anode electrolysis plate
Holder is stated, each holder is optionally along the corresponding slide rail displacement.
2. as claimed in claim 1 electrolysis nanoparticle water generating device, it is characterised in that the electrolysis nanoparticle is aquatic
Into device also comprising volume control device, the cathode electrolytic cell entrance and cathode electrolytic cell for linking the cathode electrolytic cell side goes out
Mouthful, and the anode electrolytic tank entrance and anode electrolytic tank outlet for linking the anode electrolytic tank side.
3. as claimed in claim 1 electrolysis nanoparticle water generating device, it is characterised in that the cathode electrolytic cell comprising acid
Alkali detector unit, the soda acid detector unit is on the side wall of the cathode electrolytic cell, and the one of the soda acid detector unit
End is located at the acid-base value for detecting the electrolysis nanoparticle water for generating in the cathode electrolytic cell.
4. electrolysis nanoparticle water generating device as claimed in claim 1, it is characterised in that the anode electrolytic tank is comprising dense
Degree detector unit, the concentration detecting unit is on the side wall of the anode electrolytic tank, and the one of the concentration detecting unit
End is located at the concentration for detecting the electrolyte aqueous solution in the anode electrolytic tank.
5. as claimed in claim 1 electrolysis nanoparticle water generating device, it is characterised in that the DC power supply
Comprising current detecting unit, one end of the current detecting unit connects the negative pole of the current and power supply feeding mechanism, the other end
Then connect the catholyte plate, detect the magnitude of current of the DC source.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621018391.0U CN206015113U (en) | 2016-08-31 | 2016-08-31 | Electrolysis nanoparticle water generating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621018391.0U CN206015113U (en) | 2016-08-31 | 2016-08-31 | Electrolysis nanoparticle water generating device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206015113U true CN206015113U (en) | 2017-03-15 |
Family
ID=58255919
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621018391.0U Active CN206015113U (en) | 2016-08-31 | 2016-08-31 | Electrolysis nanoparticle water generating device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206015113U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107555546A (en) * | 2017-09-12 | 2018-01-09 | 嘉兴申宁精密科技有限公司 | A kind of preparation facilities of nanometer of bubble functional ionized water |
TWI665167B (en) * | 2017-10-25 | 2019-07-11 | 納諾股份有限公司 | Nano water manufacturing method and system |
-
2016
- 2016-08-31 CN CN201621018391.0U patent/CN206015113U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107555546A (en) * | 2017-09-12 | 2018-01-09 | 嘉兴申宁精密科技有限公司 | A kind of preparation facilities of nanometer of bubble functional ionized water |
TWI665167B (en) * | 2017-10-25 | 2019-07-11 | 納諾股份有限公司 | Nano water manufacturing method and system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Kuntke et al. | Gas-permeable hydrophobic tubular membranes for ammonia recovery in bio-electrochemical systems | |
Chen et al. | Sustainable water desalination and electricity generation in a separator coupled stacked microbial desalination cell with buffer free electrolyte circulation | |
CN107849713A (en) | The reducing process and electrolysis system of carbon dioxide are utilized for electrochemistry | |
CN201834972U (en) | Regeneration system of acid etching liquid containing copper ions | |
EP2570389A4 (en) | Electrolytic device and method for producing weakly acidic electrolysed water | |
ATE535262T1 (en) | METHOD AND DEVICE FOR GENERATING WATER WITH NEGATIVE AND POSITIVE REDOX POTENTIAL (ORP) | |
NZ603195A (en) | Electrolyzing system | |
CN107673447A (en) | The generation method of hydrogen water | |
CN107098441A (en) | The method that electrochemistry removes Determination of Total Nitrogen in Waste Water | |
CN206015113U (en) | Electrolysis nanoparticle water generating device | |
CN105734602A (en) | Equipment for preparing hypochlorous acid water | |
CN102217649A (en) | Method and device for preparing faintly acid disinfectant fluid by diaphragm-free electrolysis | |
AU2016338328A1 (en) | Filter press device for electroplating metal from solutions, which is formed by separating elements formed by ion-exchange membranes, forming a plurality of anolyte and catholyte chambers, the electrodes being connected in series with automatic detachment of the metallic product | |
KR101312879B1 (en) | Three-Compartment-Cell and One-Port typed Electrolysis Apparatus | |
CN103074638B (en) | The two optical window electrolyzer of two air chambers for electrochemistry preparing gas | |
US20200263311A1 (en) | Electrolyser arrangement | |
CN204738030U (en) | Effectual no diaphragm electrolysis groove of electrolysis | |
CN103370449B (en) | There is the electrolyser of spiral entrance flexible pipe | |
JP6312876B2 (en) | Electrolytic ion water generator | |
KR20130110359A (en) | Seawater electrolytic apparatus | |
CN206467013U (en) | A kind of Novel electrolytic ion-water generating apparatus | |
CN204111883U (en) | A kind of novel rose vitriol electrolyzer | |
CN214734714U (en) | Electrolytic tank and device for preparing metal ion-free EOW | |
CN208022753U (en) | A kind of one-piece type electrolytic water device of no diaphragm | |
CN207031039U (en) | Three casees anionic membrane electrolysis units of ammonium chloride waste-water are handled for being electrolysed |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |